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framework nanoparticles (MOF-NPs) as vectors in a topical delivery system to enhance ability the encapsulated drugs (used to treat CL) to penetrate the skin barriers and the parasite membrane, help localise
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designed and synthesized bola-amphiphiles as key compounds to be incorporated in amphiphilic drug delivery systems (DDS), like bolasomes. The current doctoral project aims to optimize the bolas identified
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the world of drug delivery and mass transport in complex biological systems. This project will explore how molecules navigate through disordered networks, from liposomes to human skin. Led by experts in
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important roles to play in future quantum algorithms. However, delivery of light into an EPR spectrometer to interact with a sample is challenging. The openings though which light can be shone are often small
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superior position. Involvement in research for VZ3 within a renowned scientific team focused on studying skin barrier, (trans)dermal drug delivery, and pharmaceutical technology (such as "lipid delivery
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, playing a key role in shaping the future of pharmacy in both Sweden and globally. Our scientific focus areas include Pharmacokinetics & Pharmacodynamics • Pharmacometrics • Drug Delivery • Molecular
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to large macroscopic response when processed as materials, which can lead to drug delivery and controlled deformation of thin films. It will address the synthesis of molecules before processing them as thin
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Advancements in 3-diemnsional printing (3DP) technologies and material science have contributed to the efforts to achieve local delivery of drugs to specific disease sites with minimal systemic
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, biotechnology and advanced drug delivery systems or pharmacology. Experience with colloidal dosage forms, their stabilization and in vitro testing including cell line culture and working with cell isolates
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, biotechnology and advanced drug delivery systems or pharmacology. Experience with colloidal dosage forms, their stabilization and in vitro testing including cell line culture and working with cell isolates